Pitch Deck 2024
Nano Vision Tech
ABOUT
Our
goal
is
to
develop
a
revolutionary
infrared
and
thermal
high-resolution,
low-cost,
and
green,
imaging
Nano
Sensor
and
Night
Vision
Cameras.
Our
imaging
technology
would
greatly
exceed
the resolution of modern night vision systems.
Additionally,
we
want
to
create
efficient
and
low
cost solar-to-electricity converter.
Improved Nano-Rectenna (INR) Cell – the core of the
Imaging Nano Sensor
(and solar-to-electricity converter)
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PROBLEMS
Current
Technology:
The
existing
Night
Vision
Devices
(NVD)
technology
is
based
on
very
old
designs and require cryogenic cooling.
Use of Unsafe Materials:
NVD often use unsafe
materials like
white phosphor.
Low Resolution
:
Current systems have very
low resolution, typically 640 X 480 pixels (0.3
Mega Pixels)
Visibility
Concerns:
Night
vision
sensors
using
affordable
CMOS
technology
have
limitations
like:
Pixel
efficiency
below
10%,
visibility
of
systems
with
illumination
component,
can't
be
used
in
automotive
systems
because
intense
illumination
from other vehicles will cause sensor blindness.
Complex
and
Polluting
Manufacturing:
The
manufacturing
process
for
NVDs
is
complex
and
often pollutes the environment.
High Production Cost:
High cost of materials
and the need for a cryogenic cooling.
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Some companies use Vox
microbolometers for pixels of the
image sensors,
microbolometer
pixels has low sensitivity,
large
noise and are not accurate.
Our competitors can be our clients!
CURRENT PROBLEMS IN THE THERMAL VISION
CAMERA (LWIR) MARKET
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However, the pixel size remains as
large as 15 µm -
maximum
resolution of 640 x 480 .
Other companies create pixels from
MCT
(mercury cadmium telluride),
which
need cryogenic cooling to
temperatures near that of
liquid
nitrogen
(77K).
Microbolometers has large pixels, in
the range of 17 - 24 µm and the
image resolution is low.
High-quality microbolometers with a
maximum resolution of 640 x 480
are expensive 10-25K USD.
Cooled infrared detectors provide
clear image and superior
performance. This is the most
advanced technology, high
quantum efficiency, high frame rate,
high sensitivity, low noise, but are
very expensive
- above 50K USD.
SOLUTIONS
The Improved Nano-Rectenna (INR) Cells for Near-Infrared and Thermal Night Vision Imaging presents several
innovative solutions that will overcome the limitations of current technologies.
Advanced
Patented
Technology:
Integration
of
INR
Cells
on
one
chip
with
CMOS
electronics
within
a
single
manufacturing
cycle
and
usage
of
cheaper
materials
,
no
need
of
cryogenic
cooling reduces the cost of the product.
High
Resolution
Imaging:
High
resolution,
surpassing
the
limitations
of
current
systems
and
can
be
used
in
automotive systems
Advanced
Visibility:
Pixel
efficiency
higher
than
10%.
Illumination
from
other
vehicles
does
not
impact
the
thermal
imaging.
Safe
Materials
and
Manufacturing
Process:
Implementing
new
and
safe
materials
with
an
eco-friendly
manufacturing process.
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Nano Vision Tech
The Near-Infrared and Thermal Night Vision Imaging system is an innovative and advanced technology
that leverages nano-scale components for capturing and processing electromagnetic waves.
PRODUCT
Nano
Antenna
Technology:
Nano
antennas
capture
electromagnetic
waves,
converting
light
into
electricity
with
intensity
proportional
to
light
intensity.
Nano-Rectenna
Operation:
Improved
Nano-
Rectenna
(INR)
technology
allows
alternating
current (AC) to be converted to direct current (DC).
Signal
Amplification:
An
amplifier,
powered
by
a
dedicated
energy
source,
enhances
signals
from
each
Nano-rectenna,
forming
an
image
based on captured light intensity.
Integration
into
a
Single
Chip:
INR
system
will be
manufactured on
a single
chip, integrating
nano
components
with
CMOS
control
electronics
for precision and miniaturization.
The Product Features:
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Nano-rectenna
equivalent
electrical diagram
Light
Nano-antenna
PATENTS
U.S. Patent No.
11,380,681, “INTEGRATED
RECTIFIER”, Alexander
Rozin, issued on July 5,
2022.
EU patent No EP 3 593
385 B1, “INTEGRATED
RECTIFIER”, Alexander
Rozin, Date of publication
and mention of the grant
of the patent: 10.05.2023
Bulletin 2023/19.
IL patent application No
269135, filed 04/09/2019.
Claims accepted on Sept-
1
st
2023. The patent
publication will be soon.
China patent application
No.201880025635.3,
“INTEGRATED RECTIFIER”,
Alexander Rozin, filed on
October 17, 2019.
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1
2
3
4
Pending Patents
Patents Secured
MARKET SIZE
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The Night Vision Cameras Market
Global Thermal Camera Market
CAGR 6.1%
(2023 to 2030)
$
3.67
Bn
$ 6.21
Billion
Market Size as
at
2023
Market Size as
at
2030
CAGR 11.78%
(2023 to 2028)
$
5.21
Bn
$ 9.10
Billion
Market Size as
at
2023
Market Size as
at
2028
Source:
Maximize Market Research
Source:
Mordor Intelligence
Night Vision Device Market - Growth Rate Region Wise (2022-2027)
MARKET OPPORTUNITY
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High
Medium
Low
MARKET DRIVERS
Safety and Surveillance
Needs
Increasing concerns
related to security
threats and the need for
effective surveillance
drive the demand for
Night Vision Devices in
military, law
enforcement, and
homeland security
applications.
Military Modernization
Programs
Military modernization
initiatives worldwide,
with a focus on
advanced technologies,
drive the development
and adoption of cutting-
edge Night Vision
Devices for defense
applications.
Automotive Night Vision
Systems
Integration of Night
Vision Devices in
automotive applications
enhances driver safety
by providing improved
visibility in low-light
conditions, contributing
to market growth.
Increasing Adoption in
Commercial Sectors
Night Vision Devices find
applications in various
industries, such as
agriculture, oil and gas,
search and rescue,
contributing to increased
commercial adoption.
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FUTURE MARKETS TO BE TAPPED
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Solar Water Heater
•
Market is expected to grow up to $2.87B in
2026
INR Cells can
produce
electricity
from the
heat.
Solar Energy to Electricity Conversion
•
Photovoltaic Market is expected to grow up
to $223 B with 20.5% CAGR by 2026.
•
INR cells is a direct competitor for the
silicon solar cells.
FUTURE EXPECTATION
Photovoltaic Market
Existing technology
NVS technology
Most solar panels range from 15% to 17% efficiency
Present NVS simulation result: 24 % efficiency
The most efficient solar panel reach 22.8% efficiency
Theoretical efficiency limited to only 33.7%
Theoretical NVS efficiency: 88 - 98 %
The cost per square meter is high: ~$40
The cost per square meter is expected to be 25% of
current price, i.e. ~ $10
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License Core Technology
Potential Partners
•
Intevac, Inc.
•
Photonis (Exosens Group)
•
Elbit Systems Ltd.
•
Rockwell Collins, Inc.
•
FLIR Systems, Inc.
We plan to license or sell the Night Vision technology to our competitors and/or get royalties from companies
using our technology.
REVENUE MODEL
Sell Nano Vision Chips
Potential Buyers
•
FLIR Systems Inc.
•
Opgal Optronic Industries
Ltd.
•
Fluke Corporation
•
Testo Inc.
•
Seek Thermal Inc.
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TARGET MARKET
Source Mordor Intelligence
Short-term Period:
US, India, Europe, and Israel.
Long-term Period:
China, Japan, and others.
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Target Market
STRATEGIC PARTNERSHIPS
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Jerusalem College of Technology is a Brach of LEV ACADEMIC CENTER
Laboratories and research centers
•
Center for Nanotechnology for Research and Education
•
Solid State Laser Laboratory
•
The Center for Extended Relativity
•
Medical Optics Research Center
•
NetLab Communication Laboratory
•
Adaptive Nano-Optics Research Center
•
Center for Research in Oceanography
•
Flexible Computing Research Laboratory
Nano Vision Systems will use laboratories according to need and will
hire graduate students for assistance in design and development.
NVS is actively engaged in collaboration with the Nano Fabrication
Center at Ben-Gurion University to adapt and optimize the patented
technology for efficient product and production.
MILESTONES
From 2018 and further, the Chief
Scientist of the Israel Innovation
Authority and the Ministry of Energy
provided crucial support and funding
for the development of our technology.
In 2021, the Office of the Chief Scientist
allocated a 3-year grant to propel the
project into its next stage.
NVS created Basic Technology
Research, Concepts, and Applications
(TRL1 and TRL2). Continued to the third
Technological Readiness Level (TRL3)
and proved feasibility including the
formulation of fundamental principles
and finished the analytical and
experimental critical functions and
proof of concept.
2018
2021
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FUTURE ROADMAP
•
Design, development, and fabrication
of a complete Nano Vision Image
Sensor Array (Nano-rectenna Imager)
•
Interface Electronic Chip, and setup
with Optical and electronic
measurement equipment and
display
•
Test of Nano Vision Image Sensor
•
Computer simulation for basic
components will be created and will
be optimized with the nano-center
•
Basic components for NVS image
sensors will be developed, designed,
and optimized for nanofabrication
24 Months
36 Month
12 Month
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•
The basic components and
electronic Interface board (PCB) of
the Nano Vision Image Sensor will be
finalized, re-designed, fabricated,
and tested with optical & electronic
measurement equipment
TEAM
Dr. Eduard E. Mastov,
Senior Nano-measurement
Engineer
Alexander Rozin
,
M.Sc., CTO/Chief Scientist
Arie Aharonov
MBA, B.Sc., CEO
1.
Professional with knowledge and
experience in the design and
development of nano-electronic,
micro-electronic and electro photonic
components
2.
Alexander served as CTO, Project
Manager, and Senior Electronic
Engineer in Israeli and international Hi-
Tech Companies
3.
2011 - Present: Principal Investigator
in Jerusalem College of Technology
4.
Inventor of 24 patents, 5 publications
1.
Eduard is an expert in the physics of
semiconductors, theory, and practical
use of applied materials for micro
and nanofabrication
2.
He is a leading Israeli expert in
research, development, and
fabrication of high-precision specific
object-oriented measuring
instruments for nano-scale
applications
3.
Eduard has 15 publications and
patents in the field of micro and
nanotechnology
1.
Senior portfolio manager, with over 27
years of experience in large to
medium-sized Institutional
Companies
2.
Strong analytical and modeling skills,
and good relationships with
managers,
coworkers, and clients
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FUNDRAISE
We are seeking to raise
$3.0 M
for 3 years to finish the
prototype development and
its testing.
Fund Usage Breakup
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61%
8%
3%
3%
25%
Operating Expenses including
Payroll
Equipment
Materials
Miscellaneous
Sub-Contractors
FINANCIAL OVERVIEW
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Total Revenue Generated
$
-
$
-
$
-
$ 10,836,000
$ 23,220,000
$ 35,604,000
$ 47,988,000
$ 60,372,000
Profit After Tax (PAT)
$ (909,020)
$ (1,109,923)
$ (1,182,375)
$ 3,663,360
$ 8,472,992
$ 12,997,886
$ 16,817,783
$ 19,355,388
PAT Margin (%)
NA
NA
NA
34%
36%
37%
35%
32%
2024
2025
2026
2027
2028
2029
2030
2031
$ -
$ 10,000,000
$ 20,000,000
$ 30,000,000
$ 40,000,000
$ 50,000,000
$ 60,000,000
$ 70,000,000
$ (10,000,000)
0%
5%
10%
15%
20%
25%
30%
35%
40%
0%
0%
0%
34%
36%
37%
35%
32%
Total Revenue Generated
Profit After Tax (PAT)
PAT Margin (%)
EXIT STRATEGIES
Our exit strategy involves selling the Night Vision technology to
industry competitors and/or receiving royalties from
companies that will use our technology.
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CONTACT US
Arie Aharonov
CEO
Cell.: +972-54-7206252
Email :
ariea@nano-vision.tech
Web :
https://www.nano-vision.tech/